Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6903222 | Swarm and Evolutionary Computation | 2017 | 44 Pages |
Abstract
This paper presents a genetic programming approach for simultaneous optimization of sizing and topology of truss structures. It aims to find the optimal cross-sectional areas and connectivities of the joints to achieve minimum weight in the search space. The structural optimization problem is subjected to kinematic stability, maximum allowable stress and deflection. This approach uses the variable-length representation of potential solutions in the shape of computer programs and evolves to the optimum solution. This method has the capability to identify redundant truss elements and joints in the design space. The obtained results are compared with existing popular and competent techniques in literature and its competence as a tool in the optimization problem are demonstrated in solving some benchmark examples, the proposed approach provided lighter truss structures than the available solutions reported in the literature.
Related Topics
Physical Sciences and Engineering
Computer Science
Computer Science (General)
Authors
Hirad Assimi, Ali Jamali, Nader Nariman-zadeh,